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911.
912.
Interrelated responses of tomato plants and the leaf miner Tuta absoluta to nitrogen supply 下载免费PDF全文
R. Larbat S. Adamowicz C. Robin P. Han N. Desneux J. Le Bot 《Plant biology (Stuttgart, Germany)》2016,18(3):495-504
Plant–insect interactions are strongly modified by environmental factors. This study evaluates the influence of nitrogen fertilisation on the tomato (Solanum lycopersicum L.) cv. Santa clara and the leafminer (Tuta absoluta (Meyrick), Lepidoptera: Gelechiidae). Greenhouse‐grown tomato plants were fed hydroponically on a complete nutrient solution containing either a high nitrogen concentration (HN) sustaining maximum growth or a low nitrogen concentration (LN) limiting plant growth. Insect‐free plants were compared with plants attacked by T. absoluta. Seven and 14 days after artificial oviposition leading to efficacious hatching and larvae development, we measured total carbon, nitrogen and soluble protein as well as defence compounds (phenolics, glycoalkaloids, polyphenol oxidase activity) in the HN versus LN plants. Only in the HN treatment did T. absoluta infestation slightly impair leaf growth and induce polyphenol oxidase (PPO) activity in the foliage. Neither the concentration of phenolic compounds and proteins nor the distribution of nitrogen within the plant was affected by T. absoluta infestation. In contrast, LN nutrition impaired T. absoluta‐induced PPO activity. It decreased protein and total nitrogen concentration of plant organs and enhanced the accumulation of constitutive phenolics and tomatine. Moreover, LN nutrition impaired T. absoluta development by notably decreasing pupal weight and lengthening the development period from egg to adult. Adjusting the level of nitrogen nutrition may thus be a means of altering the life cycle of T. absoluta. This study provides a comprehensive dataset concerning interrelated responses of tomato plants and T. absoluta to nitrogen nutrition. 相似文献
913.
Metabolic engineering of flavonoids in tomato (Solanum lycopersicum): the potential for metabolomics
Arnaud Bovy Elio Schijlen Robert D. Hall 《Metabolomics : Official journal of the Metabolomic Society》2007,3(3):399-412
Flavonoids comprise a large and diverse group of polyphenolic plant secondary metabolites. In plants, flavonoids play important
roles in many biological processes such as pigmentation of flowers, fruits and vegetables, plant-pathogen interactions, fertility
and protection against UV light. Being natural plant compounds, flavonoids are an integral part of the human diet and there
is increasing evidence that dietary polyphenols are likely candidates for the observed beneficial effects of a diet rich in
fruits and vegetables on the prevention of several chronic diseases. Within the plant kingdom, and even within a single plant
species, there is a large variation in the levels and composition of flavonoids. This variation is often due to specific mutations
in flavonoid-related genes leading to quantitative and qualitative differences in metabolic profiles. The use of such specific
flavonoid mutants with easily scorable, visible phenotypes has led to the isolation and characterisation of many structural
and regulatory genes involved in the flavonoid biosynthetic pathway from different plant species. These genes have been used
to engineer the flavonoid biosynthetic pathway in both model and crop plant species, not only from a fundamental perspective,
but also in order to alter important agronomic traits, such as flower and fruit colour, resistance, nutritional value. This
review describes the advances made in engineering the flavonoid pathway in tomato (Solanum lycopersicum). Three different approaches will be described; (I) Increasing endogenous tomato flavonoids using structural or regulatory
genes; (II) Blocking specific steps in the flavonoid pathway by RNA interference strategies; and (III) Production of novel
tomato flavonoids by introducing novel branches of the flavonoid pathway. Metabolite profiling is an essential tool to analyse
the effects of pathway engineering approaches, not only to analyse the effect on the flavonoid composition itself, but also
on other related or unrelated metabolic pathways. Metabolomics will therefore play an increasingly important role in revealing
a more complete picture of metabolic perturbation and will provide additional novel insights into the effect of the introduced
genes and the role of flavonoids in plant physiology and development. 相似文献
914.
怀山药(Dioscorea opposita)遗传转化是对其进行基因功能分析和遗传改良的基础, 但目前国内外尚未见相关报道。以怀山药优良品种铁棍山药(D. opposita cv. ‘Tiegun’)的微型块茎为受体材料, 对影响遗传转化的因素进行优化, 建立了由根癌农杆菌介导的山药遗传转化体系。过表达质粒载体pCAMBIA1301-DoSERK2含GUS标记基因和潮霉素(Hyg)抗性筛选基因, 沉默质粒载体pART27-DoSERK2含卡那霉素(Kan)抗性筛选基因。根癌农杆菌抑制剂特美汀(Tim)的最佳浓度为500 mg·L -1; 再生芽和生根时, Hyg的最佳浓度分别为15和20 mg·L -1, Kan的最佳浓度分别为120和160 mg·L -1。对转化植株进行PCR和GUS组织化学检测, 结果显示外源基因已整合到铁棍山药转基因株系的基因组中并在细胞中表达。该研究建立了一套取材便利的铁棍山药遗传转化方法, 对其它品种山药的转化也具有参考价值。 相似文献
915.
A population of simultaneously germinating conidia is an ideal inoculum of the powdery mildew pathogen, Oidium neolycopersici. In conditions of no or low wind velocity, O. neolycopersici successively stacks mature conidia on conidiophores in a chain formation (pseudochain), without releasing the precedent mature conidia. These pseudochain conidia represent a perfect inoculum, in which all conidia used for inoculation germinate simultaneously. However, we found that conidia must be collected before they fall to the leaf surface, because the germination rate was lower among conidia deposited on the leaf surface. We used an electrostatic spore collector to collect the pseudochain conidia, and their high germination rate was not affected by this treatment. The spore collector consisted of an electrified insulator probe, which created an electrostatic field around its pointed tip, and attracted conidia within its electric field. The attractive force created by the probe tip was directly proportional to voltage, and was inversely proportional to the distance between the tip and a target colony on a leaf. Pseudochain conidia were successfully collected by bringing the electrified probe tip close to target colonies on leaves. In this way, conidia were collected from colonies at 3-d intervals. This effectively collected all conidia from conidiophores before they dropped to the leaf surface. A high germination rate was observed among conidia attracted to the probe tip (95.5 ± 0.6 %). Conidia were easily suspended in water with added surfactant, and retained their germination ability. These conidia were infective and produced conidia in pseudochains on conidiophores after inoculation. The electrostatic spore collection method can be used to collect conidia as they form on conidiophores, thus obtaining an inoculum population in which all of the conidia germinate simultaneously. 相似文献
916.
The aim of this work was to clarify the role of S supply in the development of the response to Fe depletion in Strategy I
plants. In S-sufficient plants, Fe-deficiency caused an increase in the Fe(III)-chelate reductase activity, 59Fe uptake rate and ethylene production at root level. This response was associated with increased expression of LeFRO1 [Fe(III)-chelate reductase] and LeIRT1 (Fe2+ transporter) genes. Instead, when S-deficient plants were transferred to a Fe-free solution, no induction of Fe(III)-chelate
reductase activity and ethylene production was observed. The same held true for LeFRO1 gene expression, while the increase in 59Fe2+ uptake rate and LeIRT1 gene over-expression were limited. Sulphur deficiency caused a decrease in total sulphur and thiol content; a concomitant
increase in 35SO4
2− uptake rate was observed, this behaviour being particularly evident in Fe-deficient plants. Sulphur deficiency also virtually
abolished expression of the nicotianamine synthase gene (LeNAS), independently of the Fe growth conditions. Sulphur deficiency alone also caused a decrease in Fe content in tomato leaves
and an increase in root ethylene production; however, these events were not associated with either increased Fe(III)-chelate
reductase activity, higher rates of 59Fe uptake or over-expression of either LeFRO1 or LeIRT1 genes. Results show that S deficiency could limit the capacity of tomato plants to cope with Fe-shortage by preventing the
induction of the Fe(III)-chelate reductase and limiting the activity and expression of the Fe2+ transporter. Furthermore, the results support the idea that ethylene alone cannot trigger specific Fe-deficiency physiological
responses in a Strategy I plant, such as tomato. 相似文献
917.
918.
The Arabidopsis ETO1 protein is a negative regulator of ethylene biosynthesis. It specifically inhibits the enzyme activity of type 2 1-aminocyclopropane-1-carboxylate synthases (ACC synthases or ACS) and promotes their degradation by a proteasome-dependent pathway. To further understand the function of the ETO1 family in the plant kingdom, we cloned a cDNA of LeEOL1 (Lycopersicon
esculentum
ETO
1-
LIKE 1), an ETO1 homolog from tomato. LeEOL1 encodes a putative protein with domain architecture conserved in the Arabidopsis ETO1/EOL1/EOL2 proteins and in the predicted rice EOL proteins. LeEOL1 is expressed in leaf, stem, root, flower, and the full ripe stage of fruit, suggesting diverse regulatory roles in the development of tomato. Yeast two-hybrid analysis revealed specific interactions between LeEOL1 and type 2 ACC synthases. When the C-terminal 14 amino acids (TOE; target of ETO1) of LE-ACS3 specific to type 2 ACC synthases were fused to a type 1 ACS, LE-ACS2, at the corresponding position, it allowed LE-ACS2 to strongly interact with LeEOL1. A GFP-TOELE-ACS3 fusion protein expressed in rice calli and in the roots of wild-type Arabidopsis showed reduced stability compared to native GFP. However, the fluorescence of GFP-TOELE-ACS3 was comparable to that of the native GFP in Arabidopsis
eto1-4 mutant. Furthermore, MG132 treatment significantly enhanced the fluorescence of GFP-TOELE-ACS3 in the roots of wild-type Arabidopsis. These results suggest that the ETO1-family-mediated ACS protein degradation pathway is conserved in both monocots and dicots, and that TOE acts as a protein destabilization signal recognized by the ETO1 protein family.* The nucleotide sequence reported will appear in the GenBank Nucleotide Sequence Database under the accession number DQ223268.The nucleotide sequence reported will appear in the GenBank Nucleotide Sequence Database under the accession number DQ223268 相似文献
919.
药敏药片临床应用观察报告 总被引:1,自引:0,他引:1
本文报导省市级三所医院同时用药敏药片和药敏纸片对国际标准质株做抑菌试验,其结果:药片片重差变异系数cv=2.5,纸片cv=14.4.抽样五种抗菌素抑菌环直径差变异系数分别为:药片平均cv=3.07,而纸片平均cv=6.85;均匀度L药片为2-3mm纸片为3-5mm.表明药片片间差小,均匀度、准确度合格,药物含量均匀,精密度好于纸片. 相似文献
920.
Summary Growing tomatoes in low humified Sphagnum peat gave satisfactory results when using the peat bags in three successive seasons without any sterilization. Use of a complete nutrient solution showed an increase of phosphorus and boron from one season to the next. The pH varied with the electrical conductivity in the peat, dependent on the nutrient concentration used. The solution used for reused peat should have a lower content of phosphorus and boron compared to a solution used for one season peat.The air capacity is high and have to be considered as optimal also in reused peat. The effect of reusing the peat on physical properties as porosity and pore size distribution is therefore of no practical significance. 相似文献